Positioning Measurement Reporting

1. A device capable of wireless communication, the device comprising: a transmitter configured to transmit outbound signals wirelessly; a memory; and a processor communicatively coupled to the memory and the transmitter, the processor being configured to: obtain a positioning state information resource allocation parameter; determine a positioning resource amount based on the positioning state information resource allocation parameter, the positioning resource amount being an amount of resources of a channel usable for conveying positioning state information; and transmit the positioning state information, via the transmitter over the channel, occupying no more than the positioning resource amount of resources of the channel; wherein to obtain the positioning state information resource allocation parameter the processor is configured to: obtain a first positioning state information resource allocation sub-parameter; and obtain a second positioning state information resource allocation sub-parameter; wherein to determine the positioning resource amount the processor is configured to: determine, based on the first positioning state information resource allocation sub-parameter, a first positioning resource sub-amount of resources of the channel; and determine, based on the second positioning state information resource allocation sub-parameter, a second positioning resource sub-amount of resources of the channel; and wherein to transmit the positioning state information the processor is configured to: transmit a first portion of the positioning state information occupying no more than the first positioning resource sub-amount of resources of the channel; and transmit a second portion of the positioning state information occupying no more than the second positioning resource sub-amount of resources of the channel.

2. The device of claim 1, wherein the positioning state information resource allocation parameter is a selected parameter, and wherein the processor is configured to retrieve the selected parameter from a plurality of positioning state information resource allocation parameters stored in the memory.

3. The device of claim 2, wherein the processor is configured to retrieve the selected parameter based on a positioning method associated with the positioning state information.

4. The device of claim 2, further comprising a receiver communicatively coupled to the processor and configured to receive inbound signals, and wherein the processor is configured to retrieve the selected parameter based on control information received by the processor via the receiver.

5. The device of claim 2, further comprising a receiver communicatively coupled to the processor and configured to receive inbound signals, and wherein the processor is configured to add a new positioning state information resource allocation parameter, from a control signal received by the processor via the receiver, to the plurality of positioning state information resource allocation parameters stored in the memory.

6. The device of claim 1, wherein the processor is configured to use a first channel state information resource allocation sub-parameter as the first positioning state information resource allocation sub-parameter and to use a second channel state information resource allocation sub-parameter as the second positioning state information resource allocation sub-parameter, and wherein the first channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a first portion of channel state information and the second channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a second portion of the channel state information.

7. The device of claim 1, wherein the processor is configured to use a first channel state information resource allocation sub-parameter as the first positioning state information resource allocation sub-parameter and as the second positioning state information resource allocation sub-parameter, and wherein the first channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a first portion of channel state information and a second channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a second portion of the channel state information.

8. The device of claim 1, wherein to transmit the positioning state information the processor is configured to concatenate the positioning state information to channel state information.

9. The device of claim 8, wherein to concatenate the positioning state information to the channel state information the processor is configured to concatenate a first portion of the positioning state information to a first portion of the channel state information and to concatenate a second portion of the positioning state information to a second portion of the channel state information.

10. The device of claim 1, wherein the processor is configured to transmit the positioning state information with a proximity, in the channel, to a reference signal based on at least one of control information associated with the positioning state information, or a quality of service associated with the positioning state information, or a positioning method associated with the positioning state information.

11. The device of claim 1, wherein the processor is configured to transmit the positioning state information without mapping at least a portion of the positioning state information to any resource element designated for conveying a hybrid automatic repeat request.

12. The device of claim 11, wherein the at least a portion of the positioning state information comprises a fixed-payload portion of the positioning state information, a positioning fix estimate, a reference transmission/reception point identification, or a positioning measurement.

13. The device of claim 1, wherein the channel usable for conveying the positioning state information is a physical uplink shared channel (PUSCH), a physical downlink shared channel (PDSCH), or a physical sidelink shared channel (PSSCH).

14. A device capable of wireless communication, the device comprising: obtaining means for obtaining a positioning state information resource allocation parameter; determining means for determining a positioning resource amount based on the positioning state information resource allocation parameter, the positioning resource amount being an amount of resources of a channel usable for conveying positioning state information; and transmitting means for transmitting the positioning state information over the channel while occupying no more than the positioning resource amount of resources of the channel; wherein the obtaining means comprise: means for obtaining a first positioning state information resource allocation sub-parameter; and means for obtaining a second positioning state information resource allocation sub-parameter; wherein the determining means comprise: means for determining, based on the first positioning state information resource allocation sub-parameter, a first positioning resource sub-amount of resources of the channel; and means for determining, based on the second positioning state information resource allocation sub-parameter, a second positioning resource sub-amount of resources of the channel; and wherein the transmitting means comprise: means for transmitting a first portion of the positioning state information occupying no more than the first positioning resource sub-amount of resources of the channel; and means for transmitting a second portion of the positioning state information occupying no more than the second positioning resource sub-amount of resources of the channel.

15. The device of claim 14, further comprising storing means for storing a plurality of positioning state information resource allocation parameters, wherein the positioning state information resource allocation parameter is a selected parameter, and wherein the obtaining means are for retrieving the selected parameter from the plurality of positioning state information resource allocation parameters in the storing means.

16. The device of claim 15, wherein the obtaining means comprise means for retrieving the selected parameter based on a positioning method for deriving the positioning state information.

17. The device of claim 15, wherein the obtaining means comprise means for receiving control information and for retrieving the selected parameter based on the control information.

18. The device of claim 15, wherein the obtaining means comprise means for receiving a new positioning state information resource allocation parameter from a control signal and for adding the new positioning state information resource allocation parameter to the plurality of positioning state information resource allocation parameters in the storing means.

19. The device of claim 14, wherein the obtaining means comprise means for using a first channel state information resource allocation sub-parameter as the first positioning state information resource allocation sub-parameter and for using a second channel state information resource allocation sub-parameter as the second positioning state information resource allocation sub-parameter, and wherein the first channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a first portion of channel state information and the second channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a second portion of the channel state information.

20. The device of claim 14, wherein the obtaining means comprise means for using a first channel state information resource allocation sub-parameter as the first positioning state information resource allocation sub-parameter and as the second positioning state information resource allocation sub-parameter, and wherein the first channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a first portion of channel state information and a second channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a second portion of the channel state information.

21. The device of claim 14, wherein the transmitting means comprise means for concatenating the positioning state information to channel state information.

22. The device of claim 21, wherein the transmitting means comprise means for concatenating a first portion of the positioning state information to a first portion of the channel state information and for concatenating a second portion of the positioning state information to a second portion of the channel state information.

23. The device of claim 14, wherein the transmitting means comprise means for transmitting the positioning state information with a proximity, in the channel, to a reference signal based on at least one of control information associated with the positioning state information, or a quality of service associated with the positioning state information, or a positioning method associated with the positioning state information.

24. The device of claim 14, wherein the transmitting means comprise means for transmitting the positioning state information without mapping at least a portion of the positioning state information to any resource element designated for conveying a hybrid automatic repeat request.

25. The device of claim 24, wherein the at least a portion of the positioning state information comprises a fixed-payload portion of the positioning state information, a positioning fix estimate, a reference transmission/reception point identification, or a positioning measurement.

26. A method of providing positioning state information in a channel usable for conveying the positioning state information, the method comprising: obtaining a positioning state information resource allocation parameter; determining a positioning resource amount based on the positioning state information resource allocation parameter, the positioning resource amount being an amount of resources of the channel usable for conveying the positioning state information; and transmitting the positioning state information over the channel while occupying no more than the positioning resource amount of resources of the channel; wherein obtaining the positioning state information resource allocation parameter comprises: obtaining a first positioning state information resource allocation sub-parameter; and obtaining a second positioning state information resource allocation sub-parameter; wherein determining the positioning resource amount comprises: determining, based on the first positioning state information resource allocation sub-parameter, a first positioning resource sub-amount of resources of the channel; and determining, based on the second positioning state information resource allocation sub-parameter, a second positioning resource sub-amount of resources of the channel; and wherein transmitting the positioning state information comprises: transmitting a first portion of the positioning state information occupying no more than the first positioning resource sub-amount of resources of the channel; and transmitting a second portion of the positioning state information occupying no more than the second positioning resource sub-amount of resources of the channel.

27. The method of claim 26, wherein the positioning state information resource allocation parameter is a selected parameter, and wherein obtaining the positioning state information resource allocation parameter comprises retrieving the selected parameter from a plurality of positioning state information resource allocation parameters stored in a memory.

28. The method of claim 27, wherein retrieving the selected parameter is based on a positioning method for deriving the positioning state information.

29. The method of claim 27, further comprising receiving control information, wherein retrieving the selected parameter is based on the control information.

30. The method of claim 27, further comprising: receiving a new positioning state information resource allocation parameter from a control signal; and adding the new positioning state information resource allocation parameter to the plurality of positioning state information resource allocation parameters in the memory.

31. The method of claim 26, wherein obtaining the positioning state information resource allocation parameter comprises using a first channel state information resource allocation sub-parameter as the first positioning state information resource allocation sub-parameter and using a second channel state information resource allocation sub-parameter as the second positioning state information resource allocation sub-parameter, and wherein the first channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a first portion of channel state information and the second channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a second portion of the channel state information.

32. The method of claim 26, wherein obtaining the positioning state information resource allocation parameter comprises using a first channel state information resource allocation sub-parameter as the first positioning state information resource allocation sub-parameter and as the second positioning state information resource allocation sub-parameter, and wherein the first channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a first portion of channel state information and a second channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a second portion of the channel state information.

33. The method of claim 26, wherein transmitting the positioning state information comprises concatenating the positioning state information to channel state information.

34. The method of claim 33, wherein concatenating the positioning state information to the channel state information comprises concatenating a first portion of the positioning state information to a first portion of the channel state information and concatenating a second portion of the positioning state information to a second portion of the channel state information.

35. The method of claim 26, wherein transmitting the positioning state information comprises transmitting the positioning state information with a proximity, in the channel, to a reference signal based on at least one of control information associated with the positioning state information, or a quality of service associated with the positioning state information, or a positioning method associated with the positioning state information.

36. The method of claim 26, wherein transmitting the positioning state information comprises transmitting the positioning state information without mapping at least a portion of the positioning state information to any resource element designated for conveying a hybrid automatic repeat request.

37. The method of claim 36, wherein the at least a portion of the positioning state information comprises a fixed-payload portion of the positioning state information, a positioning fix estimate, a reference transmission/reception point identification, or a positioning measurement.

38. A non-transitory, processor-readable storage medium comprising processor-readable instructions configured to cause a processor of a device to: obtain a positioning state information resource allocation parameter; determine a positioning resource amount based on the positioning state information resource allocation parameter, the positioning resource amount being an amount of resources of a channel usable for conveying positioning state information; and transmit the positioning state information over the channel while occupying no more than the positioning resource amount of resources of the channel; wherein the processor-readable instructions configured to cause the processor to obtain the positioning state information resource allocation parameter comprise processor-readable instructions configured to cause the processor to: obtain a first positioning state information resource allocation sub-parameter; and obtain a second positioning state information resource allocation sub-parameter; wherein the processor-readable instructions configured to cause the processor to determine the positioning resource amount comprise processor-readable instructions configured to cause the processor to: determine, based on the first positioning state information resource allocation sub-parameter, a first positioning resource sub-amount of resources of the channel; and determine, based on the second positioning state information resource allocation sub-parameter, a second positioning resource sub-amount of resources of the channel; and wherein the processor-readable instructions configured to cause the processor to transmit the positioning state information comprise processor-readable instructions configured to cause the processor to: transmit a first portion of the positioning state information occupying no more than the first positioning resource sub-amount of resources of the channel; and transmit a second portion of the positioning state information occupying no more than the second positioning resource sub-amount of resources of the channel.

39. The storage medium of claim 38, wherein the positioning state information resource allocation parameter is a selected parameter, and wherein the storage medium comprises processor-readable instructions configured to cause the processor to retrieve the selected parameter from a plurality of positioning state information resource allocation parameters stored in a memory of the device.

40. The storage medium of claim 39, wherein the storage medium comprises processor-readable instructions configured to cause the processor to retrieve the selected parameter based on a positioning method associated with the positioning state information.

41. The storage medium of claim 39, wherein the storage medium comprises processor-readable instructions configured to cause the processor to retrieve the selected parameter based on control information received by the device.

42. The storage medium of claim 39, wherein the storage medium comprises processor-readable instructions configured to cause the processor to add a new positioning state information resource allocation parameter, from a control signal received by the device, to the plurality of positioning state information resource allocation parameters stored in the memory of the device.

43. The storage medium of claim 38, wherein the storage medium comprises processor-readable instructions configured to cause the processor to use a first channel state information resource allocation sub-parameter as the first positioning state information resource allocation sub-parameter and to use a second channel state information resource allocation sub-parameter as the second positioning state information resource allocation sub-parameter, and wherein the first channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a first portion of channel state information and the second channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a second portion of the channel state information.

44. The storage medium of claim 38, wherein the storage medium comprises processor-readable instructions configured to cause the processor to use a first channel state information resource allocation sub-parameter as the first positioning state information resource allocation sub-parameter and as the second positioning state information resource allocation sub-parameter, and wherein the first channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a first portion of channel state information and a second channel state information resource allocation sub-parameter corresponds to an amount of resources of the channel usable for conveying a second portion of the channel state information.

45. The storage medium of claim 38, wherein the processor-readable instructions configured to cause the processor to transmit the positioning state information comprise processor-readable instructions configured to cause the processor to concatenate the positioning state information to channel state information.

46. The storage medium of claim 45, wherein the processor-readable instructions configured to cause the processor to concatenate the positioning state information to the channel state information comprise processor-readable instructions configured to cause the processor to concatenate a first portion of the positioning state information to a first portion of the channel state information and to concatenate a second portion of the positioning state information to a second portion of the channel state information.

47. The storage medium of claim 38, wherein the processor-readable instructions configured to cause the processor to transmit the positioning state information comprise processor-readable instructions configured to cause the processor to transmit the positioning state information with a proximity, in the channel, to a reference signal based on at least one of control information associated with the positioning state information, or a quality of service associated with the positioning state information, or a positioning method associated with the positioning state information.

48. The storage medium of claim 38, wherein the processor-readable instructions configured to cause the processor to transmit the positioning state information comprise processor-readable instructions configured to cause the processor to transmit the positioning state information without mapping at least a portion of the positioning state information to any resource element designated for conveying a hybrid automatic repeat request.

49. The storage medium of claim 48, wherein the at least a portion of the positioning state information comprises a fixed-payload portion of the positioning state information, a positioning fix estimate, a reference transmission/reception point identification, or a positioning measurement.